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EFFECTS OF PRIOR ARM EXERCISE ON PULMONARY GAS EXCHANGE KINETICS DURING HIGH-INTENSITY LEG EXERCISE IN HUMANS

Published online by Cambridge University Press:  03 January 2001

B. BOHNERT
Affiliation:
Departments of Physiology and Anesthesiology, School of Medicine, UCLA, Los Angeles, CA 90024, USA
S. A. WARD
Affiliation:
Sport and Exercise Science Research Centre, School of Applied Science, South Bank University, London SE1 0AA, UK
B. J. WHIPP
Affiliation:
Department of Physiology, St George's Hospital Medical School, London SW17 0RE, UK
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Abstract

For moderate work rates (i.e. below the lactate threshold, [theta]L), oxygen uptake ([Vdot]O2) approaches the steady state mono-exponentially. At higher work rates, the [Vdot]O2 kinetics are more complex, reflecting the delayed superimposition of an additional, slow component. The mechanisms of this ‘slow’ component are poorly understood. It has been demonstrated, however, that while a prior bout of supra-[theta]L cycling (with a 6 min recovery) does not significantly affect the [Vdot]O2 time course for a subsequent sub-[theta]L bout, it significantly speeds the [Vdot]O2 response to a subsequent supra-[theta]L bout (Gausche, Harmon, Lamarra & Whipp, 1989; Gerbino, Ward & Whipp, 1996). These investigators proposed that this speeding was a result of improved muscle perfusion during the exercise transient, possibly related to the residual metabolic acidaemia still present at the start of the subsequent exercise bout. To determine whether speeding of the [Vdot]O2 kinetics could also be induced by a bout of prior high-intensity exercise performed at a remote site (e.g. the arms), subjects each performed two 6 min bouts of high-intensity cycling (leg exercise: LE) at a work rate equivalent to 50 % of ‘[Delta]LE’ (the difference between maximum [Vdot]O2,LE and [theta]L,LE). On one occasion this was preceded by a 6 min period of cycling at 50 % [Delta]LE and, on another, by a similar period of arm-crank exercise (arm exercise: AE) at 50 % [Delta]AE; in each case, the work bouts were separated by 6 min of unloaded pedalling. Pulmonary gas exchange variables were derived breath-by-breath. During unloaded pedalling and at minute 6 of each work bout, arterialized venous blood samples were drawn from the dorsum of the heated hand or at the wrist for analysis of pH, lactate, pyruvate, noradrenaline (NAdr), adrenaline (Adr), and potassium (K+). The difference in [Vdot]O2 between minute 6 and 3 of each work bout ([Delta][Vdot]O2,[6-3]) and the 'partial' O2 deficit (O2 Def) provided indices of the slow phase of [Vdot]O2 kinetics. The initial AE and LE bouts resulted in similar degrees of metabolic (lactic) acidaemia; the residual acidaemia at the end of the subsequent 6 min recovery phase was also similar for the two protocols, as were [K+], [Adr] and [NAdr]. The subsequent LE bouts were associated with reductions in both [Delta][Vdot]O2,[6-3] and O2 Def, relative to control, with the effect being more marked when the work was preceded by a prior LE bout than a prior AE bout: [Delta][Vdot]O2,[6-3] averaging 32 and 56 % of control, respectively, and O2 Def 71 and 81 %. Consequently, the increase in [lactate] and decrease in pH induced in this second LE bout were smaller when preceded by prior leg exercise than prior arm exercise. It is therefore concluded that while metabolic acidaemia induced at a site remote from the legs is associated with a less prominent slow phase of the [Vdot]O2 kinetics for high-intensity leg exercise, a component specific to the involved contractile units appears to exert the dominant effect. The mechanisms underlying this response are, however, presently uncertain.

Type
Research Article
Copyright
© The Physiological Society 1998

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